The mlenapts RNA Helicase Mutation in Drosophila Results in a Splicing Catastrophe of the para Na + Channel Transcript in a Region of RNA Editing
Copyright policy )The mlenapts RNA Helicase Mutation in Drosophila Results in a Splicing Catastrophe of the para Na + Channel Transcript in a Region of RNA Editing
The mle(napts) mutation causes temperature-dependent blockade of action potentials resulting from decreased abundance of para-encoded Na+ channels. Although maleless (mle) encodes a double-stranded RNA (dsRNA) helicase, exactly how mle(napts) affects para expression remained uncertain. Here, we show that para transcripts undergo adenosine-to-inosine (A-to-I) RNA editing via a mechanism that apparently requires dsRNA secondary structure formation encompassing the edited exon and the downstream intron. In an mle(napts) background, >80% of para transcripts are aberrant, owing to internal deletions that include the edited exon. We propose that the Mle helicase is required to resolve the dsRNA structure and that failure to do so in an mle(napts) background causes exon skipping because the normal splice donor is occluded. These results explain how mlen(napts) affects Na+ channel expression and provide new insights into the mechanism of RNA editing.
- UNIVERSITY OF WISCONSIN-MADISON United States
- University of Wisconsin–Madison United States
- University of Wisconsin–Oshkosh United States
- University of Wisconsin System United States
- University of Connecticut Health Center United States
Neurons, DNA, Complementary, Base Sequence, Chromosomal Proteins, Non-Histone, Neuroscience(all), Molecular Sequence Data, DNA Helicases, Gene Dosage, Action Potentials, Introns, Animals, Genetically Modified, DNA-Binding Proteins, Evolution, Molecular, Phenotype, Animals, Drosophila Proteins, Nucleic Acid Conformation, Drosophila, RNA Editing, Conserved Sequence, RNA Helicases
Neurons, DNA, Complementary, Base Sequence, Chromosomal Proteins, Non-Histone, Neuroscience(all), Molecular Sequence Data, DNA Helicases, Gene Dosage, Action Potentials, Introns, Animals, Genetically Modified, DNA-Binding Proteins, Evolution, Molecular, Phenotype, Animals, Drosophila Proteins, Nucleic Acid Conformation, Drosophila, RNA Editing, Conserved Sequence, RNA Helicases
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